Hartree-Fock on a superconducting qubit quantum computer

Collaborators, Google AI Quantum and; Arute, Frank; Arya, Kunal; Babbush, Ryan; Bacon, Dave; Bardin, Joseph C.; Barends, Rami; Boixo, Sergio; Broughton, Michael; Buckley, Bob B.; Buell, David A.; Burkett, Brian; Bushnell, Nicholas; Chen, Yu; Chen, Zijun; Chiaro, Benjamin; Collins, Roberto; Courtney, William; Demura, Sean; Dunsworth, Andrew; Farhi, Edward; Fowler, Austin; Foxen, Brooks; Gidney, Craig; Giustina, Marissa; Graff, Rob; Habegger, Steve; Harrigan, Matthew P.; Ho, Alan; Hong, Sabrina; Huang, Trent; Huggins, William J.; Ioffe, Lev; Isakov, Sergei V.; Jeffrey, Evan; Jiang, Zhang; Jones, Cody; Kafri, Dvir; Kechedzhi, Kostyantyn; Kelly, Julian; Kim, Seon; Klimov, Paul V.; Korotkov, Alexander; Kostritsa, Fedor; Landhuis, David; Laptev, Pavel; Lindmark, Mike; Lucero, Erik; Martin, Orion; Martinis, John M.; McClean, Jarrod R.; McEwen, Matt; Megrant, Anthony; Mi, Xiao; Mohseni, Masoud; Mruczkiewicz, Wojciech; Mutus, Josh; Naaman, Ofer; Neeley, Matthew; Neill, Charles; Neven, Hartmut; Niu, Murphy Yuezhen; O’Brien, Thomas E.; Ostby, Eric; Petukhov, Andre; Putterman, Harald; Quintana, Chris; Roushan, Pedram; Rubin, Nicholas C.; Sank, Daniel; Satzinger, Kevin J.; Smelyanskiy, Vadim; Strain, Doug; Sung, Kevin J.; Szalay, Marco; Takeshita, Tyler Y.; Vainsencher, Amit; White, Theodore; Wiebe, Nathan; Yao, Z. Jamie; Yeh, Ping; Zalcman, Adam

doi:10.1126/science.abb9811

articleScienceAug 28, 2020GREEN OA

Hartree-Fock on a superconducting qubit quantum computer

GAGoogle AI Quantum and CollaboratorsFAFrank AruteKAKunal AryaRBRyan BabbushDBDave Bacon

PubMed

Indexed inarxivcrossrefpubmed

Abstract

Twelve-qubit quantum computing for chemistry Accurate electronic structure calculations are considered one of the most anticipated applications of quantum computing that will revolutionize theoretical chemistry and other related fields. Using the Google Sycamore quantum processor, Google AI Quantum and collaborators performed a variational quantum eigensolver (VQE) simulation of two intermediate-scale chemistry problems: the binding energy of hydrogen chains (as large as H 12 ) and the isomerization mechanism of diazene (see the Perspective by Yuan). The simulations were performed on up to 12 qubits, involving up to 72 two-qubit gates, and show that it is possible to achieve chemical accuracy when VQE is…

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706

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Authors

82

GA
Google AI Quantum and CollaboratorsCorresponding
FA
Frank Arute
KA
Kunal Arya
RB
Ryan Babbush
DB
Dave Bacon

Topics & keywords

Topics

Keywords

Ansatz
Quantum computer
Qubit
Quantum
Parameterized complexity
Quantum simulator
Scaling
Superconductivity

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